DocumentCode
2371278
Title
Degrees of freedom (DoF) of locally connected interference channels with coordinated multi-point (CoMP) transmission
Author
Gamal, Abbas El ; Annapureddy, V. Sreekanth ; Veeravalli, Venugopal V.
Author_Institution
ECE Dept., Univ. of Illinois at Urbana-Champaign, Urbana, IL, USA
fYear
2012
fDate
10-15 June 2012
Firstpage
2293
Lastpage
2297
Abstract
The degrees of freedom (DoF) available for communication provides an analytically tractable way to characterize the information-theoretic capacity of interference channels. In this paper, the DoF of a K-user interference channel is studied under the assumption that the transmitters can cooperate via coordinated multi-point (CoMP) transmission. In [1], the authors considered the linear asymmetric model of Wyner, where each transmitter is connected to its own receiver and its successor, and is aware of its own message as well as M - 1 preceding messages. The per user DoF was shown to go to M/M+1 as the number of users increases to infinity. In this work, the same model of channel connectivity is considered, with a relaxed cooperation constraint that bounds the maximum number of transmitters at which each message can be available, by a cooperation order M. We show that the relaxation of the cooperation constraint, while maintaining the same load imposed on a backhaul link needed to distribute the messages, results in a gain in the DoF. In particular, the asymptotic limit of the per user DoF under the cooperation order constraint is 2M/2M+1. Moreover, the optimal transmit set selection satisfies a local cooperation constraint. i.e., each message needs only to be available at neighboring transmitters.
Keywords
channel capacity; cooperative communication; queueing theory; radiofrequency interference; 2M/2M+1; CoMP transmission; DoF; K-user interference channel; M-1 preceding messages; M/M+1; Wyner linear asymmetric model; backhaul link; channel connectivity model; cooperation order constraint; coordinated multipoint transmission; degrees of freedom; information-theoretic capacity; interference channel capacity; locally connected interference channels; neighboring transmitters; optimal transmit set selection; receiver; relaxed cooperation constraint; Channel models; Encoding; Indexes; Interference channels; Receivers; Transmitters;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications (ICC), 2012 IEEE International Conference on
Conference_Location
Ottawa, ON
ISSN
1550-3607
Print_ISBN
978-1-4577-2052-9
Electronic_ISBN
1550-3607
Type
conf
DOI
10.1109/ICC.2012.6364077
Filename
6364077
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